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1. Intraplate magmatism at a convergent plate boundary: The case of the Cenozoic northern Adria magmatism

Author

Brombin V.[1], Bonadiman C.[1], Jourdan F.[2], Roghi G.[3], Coltorti M.[1], Webb L.E.[4], Callegaro S.[5], Bellieni G.[6], De Vecchi G.[6], Sede R.[1, and Marzoli A.[3

Subjects
010504 meteorology & atmospheric sciences, Geochemistry, Intraplate magmatism, 010502 geochemistry & geophysics, Poloidal mantle flow, 01 natural sciences, Mantle (geology), NO, Lithosphere, Convergent boundary, Southeastern Alps, Metasomatism, Veneto Volcanic Province, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Sedimentary basin, Ar, Ar geochronology, Magmatism, Slab window, Intraplate earthquake, General Earth and Planetary Sciences, Geology, 39, intraplate magmatism, 40Ar/39Ar geochronology, poloidal manthe flow, southeastern Alps
Abstract

The complex European–Adria geodynamic framework, which led to the formation of the Alpine belt, is considered responsible for the orogenic magmatism that occurred in the Central Alps along the Periadriatic/Insubric Line (late Eocene–early Oligocene) and the anorogenic magmatism that occurred in the Southeastern Alps (late Paleocene–early Miocene). While the subduction-related magmatic activities are, as expected, near convergent margins, the occurrence of the intraplate-related magmatism is still puzzling. Therefore, in this work new geochemical and geochronological data of magmatic products from the Veneto Volcanic Province (VVP, north–east Italy) are provided to constrain the Cenozoic intraplate magmatism of the Southeastern Alps. The VVP is formed by dominant basic–ultrabasic (from nephelinites to tholeiites) magmatic products and by localized acid (latitic, trachytic, and rhyolitic) volcanic and subvolcanic bodies. Trace element patterns and ratios suggest that the mantle source of the alkaline magma types was a garnet lherzolite possibly metasomatised by carbonatitic melts and with residual phlogopite. According to the biostratigraphic records and our new 40Ar/39Ar ages, VVP eruptions occurred in several pulses, reflecting the extensional phases experienced by the Eastern Alpine domain. The volcanism started in the late Paleocene in the western sector of the VVP where activity was widespread also during the Eocene (45.21 ± 0.11 Ma – 38.73 ± 0.44 Ma). In the eastern sector eruptions took place in the early Oligocene (32.35 ± 0.09 Ma – 32.09 ± 0.29 Ma) and in the early Miocene (~23–22 Ma). From the studies so far undertaken, the anorogenic magmatic activity of the VVP was interpreted as resulting from mantle upwellings through slab window(s) following the European slab break-off, which occurred at ~ 35 Ma. However, considering (i) new tomographic images evidencing a continuous subvertical (~ 500 km in depth) slab beneath the Central Alps, and (ii) the onset of magmatic activity in the VVP in the late Paleocene (i.e., before the slab break-off) and its continuation until the Miocene, a better suited geodynamic scenario is required to explain the anorogenic magmatism. The westward rollback of the European slab caused the retreat and steepening of the subducting plate. As a consequence, sub-slab mantle material escaped and upwelled from the front of the slab and created a poloidal mantle flow. The latter induced the breakdown of carbonates in calcareous metasediments and carbonated metabasics within the subducting oceanic slab, providing carbonatitic melts, which could be responsible for the metasomatism of the VVP mantle sources. After that, the poloidal mantle flow also induced (i) the extensional deformation in the overriding Adria microplate, (ii) the decompressional melting of VVP mantle sources, and (iii) the intraplate affinity of the VVP magmatism. During these processes, the Adria microplate also rotated counterclockwise, forming sedimentary basins, and allowing the poloidal mantle flow to affect different portions of the overlying lithosphere, generating syn-estensional magmatism within the VVP.

Published
2019
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4. Proterozoic to Mesozoic evolution of North-West Africa and Peri-Gondwana microplates: Detrital zircon ages from Morocco and Canada

Author

Marzoli, A., Davies, J., Youbi, N., Merle, Renaud, Dal Corso, J., Dunkley, D., Fioretti, A., Bellieni, G., Medina, F., Wotzlaw, J., McHone, G., Font, E., Bensalah, M., Marzoli, A., Davies, J., Youbi, N., Merle, Renaud, Dal Corso, J., Dunkley, D., Fioretti, A., Bellieni, G., Medina, F., Wotzlaw, J., McHone, G., Font, E., and Bensalah, M.

Abstract

© 2017 Elsevier B.V. The complex history of assemblage and disruption of continental plates surrounding the Atlantic Ocean is in part recorded by the distribution of detrital zircon ages entrained in continental sedimentary strata from Morocco (Central High Atlas and Argana basins) and Canada (Grand Manan Island, New Brunswick). Here we investigate detrital zircon from the latest Triassic (ca. 202 Ma) sedimentary strata directly underlying lava flows of the Central Atlantic magmatic province or interlayered within them. SHRIMP (Sensitive High-Resolution Ion MicroProbe) and LA-ICP-MS (Laser Ablation-Inductively Coupled Plasma-Mass Spectrometry) U–Pb ages for zircon range from Paleozoic to Archean with a dominant Neoproterozoic peak, and significant amounts of ca. 2 Ga zircon. These ages suggest a prevailing West African (Gondwanan) provenance at all sampling sites. Notably, the Paleoproterozoic zircon population is particularly abundant in central Morocco, north of the High Atlas chain, suggesting the presence of Eburnean-aged rocks in this part of the country, which is consistent with recent geochronologic data from outcropping rocks. Minor amounts of late Mesoproterozoic and early Neoproterozoic zircon ages (ca. 1.1–0.9 Ga) in Moroccan samples are more difficult to interpret. A provenance from Avalonia or Amazonia, as proposed by previous studies is not supported by the age distributions observed here. An involvement of more distal source regions, possibly located in north-eastern Africa (Arabian Nubian Shield) would instead be possible. Paleozoic zircon ages are abundant in the Canadian sample, pointing to a significant contribution from Hercynian aged source rocks. Such a signal is nearly absent in the Moroccan samples, suggesting that zircon-bearing Hercynian granitic rocks of the Moroccan Meseta block were not yet outcropping at ca. 200 Ma. The only Moroccan samples that yield Paleozoic zircon ages are those interlayered within the CAMP lavas, suggesting an inc

Published
2017

5. 40Ar/39Ar ages of alkaline and tholeiitic rocks from the northern Deccan Traps: implications for magmatic processes and the K–Pg boundary

Author

Parisio, L., Jourdan, Fred, Marzoli, A., Melluso, L., Sethna, S., Bellieni, G., Parisio, L., Jourdan, Fred, Marzoli, A., Melluso, L., Sethna, S., and Bellieni, G.

Abstract

The Deccan large igneous province in India was emplaced temporally close to the Cretaceous–Palaeogene (K–Pg) boundary and is formed by tholeiitic flood basalts and less abundant alkaline rocks. Definition of the origin of Deccanmagmatism and of its environmental impact relies on precise and accurate geochronological analyses.We present new40Ar/39Ar ages from the northern sector of the province. In this area, tholeiitic and alkaline rocks were contemporaneously emplaced at 66.60 ± 0.35 to 65.25 ± 0.29 Ma in the Phenai Mata area, whereas rocks from Rajpipla and Mount Pavagadh yielded ages ranging from 66.40 ± 2.80 to 64.90 ± 0.80 Ma. The indistinguishable ages for alkaline and tholeiitic magmatism suggest that distinct mantle sources were synchronously active. The new ages are compared with previous ages, which were carefully screened and filtered and then recalculated to be comparable. The entire dataset of geochronological data does not support a time-related migration of the magmatismrelated to the northward Indian platemovement relative to the Reunion mantle plume. The main phase of magmatism, including the newly dated rocks from the northern Deccan, occurred at the K–Pg boundary. This suggests a causal link between the emplacement of the province and the K–Pg mass extinction.

Published
2016

19. Sr, Nd, Pb and Os isotope systematics of CAMP tholeiites from Eastern North America (ENA): Evidence of a subduction-enriched mantle source

Author

Merle, Renaud, Marzoli, A., Reisberg, L., Bertrand, H., Nemchin, Alexander, Chiaradia, M., Callegaro, S., Jourdan, Fred, Bellieni, G., Kontak, D., Puffer, J., Gregory McHone, J., Merle, Renaud, Marzoli, A., Reisberg, L., Bertrand, H., Nemchin, Alexander, Chiaradia, M., Callegaro, S., Jourdan, Fred, Bellieni, G., Kontak, D., Puffer, J., and Gregory McHone, J.

Abstract

The Central Atlantic Magmatic Province (CAMP) is one of the largest igneous provinces on Earth, with an areal extent exceeding 107km2. Here we document the geochemical characteristics of CAMP basalts fromTriassic-Jurassic basins in northeastern USA and Nova Scotia (Canada).The CAMP rocks occur as lava flows, sills and dykes. All of our analysed samples show chemical characteristics typical of CAMP basalts with low titanium content, which include enrichment in the most incompatible elements and negative Nb anomalies. All the basalts also show enriched Sr-Nd-Pb initial (t=201Ma) isotopic compositions (206Pb/204Pbini.=18·155-18·691, 207Pb/204Pbini.=15·616-15·668, 208Pb/204Pbini.= 38·160-38·616, 143Nd/144Ndini.=0·512169-0·512499). On the basis of stratigraphy, rare earth element (REE) chemistry and Sr- Nd-Pb isotope composition, three chemical groups are defined. The Hook Mountain group, with the lowest La/Yb ratios, initial 206Pb/204Pbini.>18·5 and 143Nd/144Ndini>0·51238, comprises all the lastest and upper stratigraphic units. The Preakness group, with intermediate La/Yb ratios, 206Pb/204Pbini.>18·5 and 0·512334143Nd/144Ndini>0·51225, comprises the intermediate units. The Orange Mountain group has the highest La/Yb ratios and 143Nd/144Ndini.<0·51235 and involves all the earliest and stratigraphically lowest units, including the entire North Mountain basalts from Nova Scotia. In this last group, three sub-groups may be distinguished: the Rapidan sill, which has 206Pb/204Pbini. higher than 18·5, the Shelburne sub-group, which has 143Nd/144Ndini.<0·51225, and the remaining Orange Mt samples. With the exception of one sample, the Eastern North America (ENA) CAMP basalts display initial 187Os/188Os ratios in the range of mantle-derived magmas (<0·15). Simple modelling shows that the composition of the ENA CAMP basalts cannot plausibly be explained solely by crustal contamination of oceanic island basalt (OIB), mid-ocean ridge basalt (MORB) or oceanic p

Published
2014

25. Proterozoic magmatic events of the subcontinental mantle: Sao Francisco Craton (Uaua, NE-Brazil)

Author

BELLIENI G., PICCIRILLO E. M., PETRINI R., GIRARDI V. A. V, MENEZES LEAL A. B., TEIXEIRA W., BASTOS LEAL L. R., COMIN CHIARAMONTI P., TANNER DE OLIVEIRA M. A., DE MIN, ANGELO, Bellieni, G., Piccirillo, E. M., Petrini, R., GIRARDI V. A., V, MENEZES LEAL, A. B., Teixeira, W., DE MIN, Angelo, BASTOS LEAL, L. R., COMIN CHIARAMONTI, P., and TANNER DE OLIVEIRA, M. A.

Published
1995

26. Consensus Conference. Italian Society of Cardiovascular Echography (SIEC). Consensus Conference on the state of the art of contrast echocardiography

Author

Trocino, G, Badano, Lp, Benedetto, F, Gentile, F, Agati, L, Bellieni, G, Bezante, Gp, Bokor, D, Carerj, S, Colonna, P, Corrado, G, Dejong, N, DI BELLO VA, Falcone, A, Fioretti, P, Galiuto, L, Galli, M, Gullace, G, Lombardi, M, Mantero, A, Marelli, C, Martegani, A, Mele, D, Montisci, R, Moreo, A, Negrini, P, Pavan, D, Pedrizzetti, G, Pezzano, A, Previtali, M, Rovai, D, Rigo, F, Ruscazio, M, Salustri, A, Tartarini, G, Tonti, G, Turiel, M, Verna, E, and Voci, P

Subjects
MYOCARDIAL CONTRAST ECHOCARDIOGRAPHY, Settore MED/11 - MALATTIE DELL'APPARATO CARDIOVASCOLARE, Contrast echocardiography
Published
2004

27. Upper and lower crust recycling in the source of CAMP basaltic dykes from southeastern North America

Author

Callegaro, S., Marzoli, A., Bertrand, H., Chiaradia, M., Reisberg, L., Meyzen, C., Bellieni, G., Weems, R., Merle, Renaud, Callegaro, S., Marzoli, A., Bertrand, H., Chiaradia, M., Reisberg, L., Meyzen, C., Bellieni, G., Weems, R., and Merle, Renaud

Abstract

The densest dykes swarm of the Central Atlantic magmatic province (CAMP) occur in southeastern North America (SENA) and were intruded between 202 and 195 Ma during Pangea break-up. New combined geochemical data (major and trace elements, Sr–Nd–Pb–Os isotopes) constrain the mantle source of these magmatic bodies and their evolution path. While Sr–Nd isotopic compositions for SENA rocks (87Sr/86Sr200Ma 0.70438–0.70880 and 143Nd/144Nd200Ma 0.51251–0.51204) fall within the low-Ti CAMP field, Pb–Pb isotopes (206Pb/204Pb200Ma 17.46–18.85, 207Pb/204Pb200Ma 15.54–15.65, 208Pb/204Pb200Ma 37.47–38.76) are peculiar to this area of the CAMP and cover a considerable span of compositions, especially in 206Pb/204Pb200Ma. Given the generally unradiogenic Os isotopic compositions (187Os/188Os200Ma 0.127–0.144) observed and the lack of correlation between these and other geochemical markers, crustal contamination during the evolution of SENA dykes must have been limited (less than 10%). Thus the isotopic variation is interpreted to reside primarily within the mantle source.These observations, coupled with typical continental signatures in trace elements (positive anomaly in Pb and negative anomalies in Ti and Nb), require another means of conveying a continental flavor to these magmas, which is here hypothesized to be the shallow recycling within the upper mantle of subducted lower and upper crustal materials. Pseudo-ternary mixing models show that a maximum of 10% recycled crust is enough to explain their trace element patterns as well as their isotopic heterogeneity. Looking at the larger picture of the origin of the CAMP, the thermal contribution of a mantle plume cannot be ruled out due to the relatively high mantle potential temperatures (1430–1480 °C) calculated for high-Fo SENA olivines. Nevertheless, our results suggest that the chemical involvement of a mantle plume is negligible (less than 5%) if either a C- or an EM-flavored plume is considered. Rather, the possibility of

Published
2013

28. Evidence of magmatic activity related to Middle-Jurassic and lower Cretaceous rifting from notheastern Brazil (Cearà-Mirim): K/Ar age, Paleomagnetism, Petrology and Sr-Nd Isotopes

Author

Bellieni, G., Acedo, M. H. F., Petrini, R., PICCIRILLO E. M, ., Cavazzini, G., COMIN CHIARAMONTI, P., Ernesto, M., Macedo, J. W. P., Martines, G., Melfi, A. J., Pacca, I. G., DE MIN, Angelo, Bellieni, G., Acedo, M. H. F., Petrini, R., PICCIRILLO E. M, ., Cavazzini, G., COMIN CHIARAMONTI, P., Ernesto, M., Macedo, J. W. P., Martines, G., Melfi, A. J., Pacca, I. G., and DE MIN, Angelo

Published
1992

29. Mesozoic dyke swarm in the Sapucai Graben (central - eastern Paraguay)

Author

COMIN CHIARAMONTI, P, Cundari, A, Censi, P, Gomes, C. B., Piccirillo, E. M., Bellieni, G, DE MIN, Angelo, Orue, D, Velazquez, V. F., COMIN CHIARAMONTI, P, Cundari, A, Censi, P, GOMES C., B, PICCIRILLO E., M, Bellieni, G, DE MIN, Angelo, Orue, D, and Velazquez, V. F.

Published
1991

33. Potassic Dykes from Central Paraguay

Author

Cominchiaramonti, P, Cundari, A, Censi, P, Gomes, C. B., Piccirillo, E. M., Bellieni, G, Velazquez, V. F., DE MIN, Angelo, Cominchiaramonti, P, Cundari, A, Censi, P, GOMES C., B, PICCIRILLO E., M, Bellieni, G, VELAZQUEZ V., F, and DE MIN, Angelo

Published
1991

35. Jurassic and lower Cretaceous Dyke Swarms from NE Brazil; Petrology, Sr-Nd isotopes, Paleomagnetism and Geodynamic Implications

Author

BELLIENI G, MACEDO M. H. F, PETRINI R, PICCIRILLO E. M, CAVAZZINI G, COMIN CHIARAMONTI P, ERNESTO M, MACEDO J. W. P, MARTINS G, MELFI A. J, PACCA I. G, DE MIN, ANGELO, Bellieni, G, MACEDO M. H., F, Petrini, R, PICCIRILLO E., M, Cavazzini, G, COMIN CHIARAMONTI, P, Ernesto, M, MACEDO J. W., P, Martins, G, MELFI A., J, PACCA I., G, and DE MIN, Angelo

Published
1991

37. Petrologia do macico alcalino de Acahay, Paraguay Oriental

Author

COMIN CHIARAMENTI P, GOMES C, PICCIRILLO EM, BELLIENI G, CASTILLO AM, GALLO P, VELAZQUEZ JC, DEMARCHI, GABRIELLA, COMIN CHIARAMENTI, P, Gomes, C, Piccirillo, Em, Bellieni, G, Castillo, Am, Demarchi, Gabriella, Gallo, P, and Velazquez, Jc

Published
1990

40. Low and high TiO2 Mesozoic tholeiitic magmatism of the Maranhao Basin (NE Brazil): K/Ar age, geochemistry, petrology, isotope characteristics and relationships with Mesozoic low and high TiO2 flood basalts of the Paranà Basin (SE Brazil)

Author

Bellieni G., Piccirillo E. M., Cavazzini G., Comin Chiaramonti P., Nardy, A. J. R., Civetta L., Melfi, A. J., Zantedeschi P., PETRINI, RICCARDO, Bellieni, G., Piccirillo, E. M., Cavazzini, G., Petrini, Riccardo, Comin Chiaramonti, P., Nardy, A. J. R., Civetta, L., Melfi, A. J., and Zantedeschi, P.

Subjects
Brazil tholeiites, geochemistry, petrology, Brazil tholeiite
Published
1990

42. Timing and duration of the Central Atlantic magmatic province in the Newark and Culpeper basins, eastern U.S.A.

Author

Marzoli, A., Jourdan, Fred, Puffer, J., Cuppone, T., Tanner, L., Weems, R., Bertrand, H., Cirilli, S., Bellieni, G., De Min, A., Marzoli, A., Jourdan, Fred, Puffer, J., Cuppone, T., Tanner, L., Weems, R., Bertrand, H., Cirilli, S., Bellieni, G., and De Min, A.

Abstract

New major and trace element data and 40Ar/39Ar plateau ages constrain the timing, duration and time-related geochemical evolution of the Central Atlantic magmatic province in the U.S.A. (Newark and Culpeper basins) and refine correlations with basaltic lava flows from other Late Triassic–Early Jurassic circum-Atlantic basins. The precise, statistically robust 40Ar/39Ar plateau ages were obtained on biotite and on fresh plagioclase and calculated using the latest 40K decay constants. These ages are supported by a general consistency of the Ca/K calculated from 37Ar/39Ar of the plateau steps and the Ca/K obtained by detailed electron microprobe analyses on plagioclase phenocrysts. The ages of five analyzed basalt lava flows, from all three lava flow units in the Newark basins, and the ages of two sill samples are indistinguishable, indicating a brief magmatic peak phase at 201.8 ± 0.7 Ma.Recalibrated 40Ar/39Ar plateau ages from the entire province indicate a near-synchronous onset and peak volcanic activity at the Triassic–Jurassic boundary within the circum-Atlantic basins from the U.S.A., Canada and Morocco. The early erupted magmas (Moroccan Lower to Upper basalts, the Fundy basin North Mountain Basalt, and Orange Mountain and equivalent U.S.A. flows) yield an enriched geochemical signature (e.g., with relatively high La/Yb), whereas late magmas in the U.S.A. (Hook Mountain and Hampden basalts) and Morocco (Recurrent basalt) yield relatively depleted geochemical compositions (low La/Yb). A slight, but significant age difference for eruption of Hook Mountain and Hampden basalts (200.3 ± 0.9 Ma) and Recurrent basalts (198.2 ± 1.1 Ma) is interpreted as evidence of a diachronous northward rift–drift transition during break-up of Pangea. Our data indicate also a prolonged intrusive sequence that continued until about 195 Ma at the Palisades sill and is consistent with sporadic late CAMP magmatism for dykes from the south-eastern U.S.A. and for intrusions from Guinea.Res

Published
2011

43. 40Ar/39Ar ages of CAMP in North America: implications for the Triassic-Jurassic boundary and the 40K decay constant bias

Author

Jourdan, Fred, Marzoli, A., Bertrand, H., Cirilli, S., Tanner, L. H., Kontak, D., McHone, G., Renne, P. R., Bellieni, G., Jourdan, Fred, Marzoli, A., Bertrand, H., Cirilli, S., Tanner, L. H., Kontak, D., McHone, G., Renne, P. R., and Bellieni, G.

Abstract

The Central Atlantic magmatic province (CAMP) is one of the largest igneous provinces on Earth (>107 km²) and spanning four continents. Recent high-precision 40Ar/39Ar dating of mineral separates has provided important constraints on the age, duration, and geodynamic history of CAMP. Yet, the North American CAMP is strikingly under-represented in this dating effort. Here we present 13 new statistically robust plateau, mini-plateau and isochron ages obtained on plagioclase and sericite separates from lava flows from the Fundy (n = 10; Nova Scotia, Canada) and Hartford and Deerfield (n = 3; U.S.A.) basins. Ages mostly range from 198.6 ± 1.1 to 200.1 ± 1.4 Ma (2σ), with 1 date substantially younger at 190.6 ± 1.0 Ma. Careful statistical regression shows that ages from the upper (199.7.0 ± 1.5 Ma) and bottom (200.1 ± 0.9 Ma) units of the lava pile in the Fundy basin are statistically indistinguishable, confirming a short duration emplacement (<< 1.8 Ma; ≤1 Ma). Three ages obtained on the Hartford (198.6 ± 2.0 Ma and 199.8 ± 1.1 Ma) and Deerfield (199.3 ± 1.2 Ma) basins were measured on sericite from the upper lava flow units. We interpret these dates as reflecting synemplacement hydrothermal activity within these units. Collectively, CAMP ages gathered so far suggest a short duration of the main magmatic activity (2-3 Ma), but also suggest the possibility of a temporal migration of the active magmatic centers from north to south. Such a migration challenges a plume model that would postulate a radial outward migration of the magmatism and is more compatible with other models such as the supercontinent global warming hypothesis. When compared to the age of the Triassic-Jurassic boundary, the filtered CAMP age database suggests that the onset of the magmatic activity precedes the limit by at least few hundred thousand years, therefore suggesting a causal relationship between CAMP and the end of Triassic mass extinction. An age at 191 Ma possibly suggests a minor CAMP late

Published
2009

44. Latest Triassic onset of the Central Atlantic Magmatic Province (CAMP) volcanism in the Fundy Basin (Nova Scotia): New stratigraphic constraints

Author

Cirilli, S., Marzoli, A., Tanner, L., Bertrand, H., Burratti, N., Jourdan, Fred, Bellieni, G., Kontak, D., Renne, P., Cirilli, S., Marzoli, A., Tanner, L., Bertrand, H., Burratti, N., Jourdan, Fred, Bellieni, G., Kontak, D., and Renne, P.

Abstract

In this paper we investigate the stratigraphic relationship between the emplacement of the CAMP basalts and the Triassic–Jurassic (Tr–J) boundary in the Fundy Basin (Nova Scotia, Canada). This is one of the best exposed of the synrift basins of eastern North America (ENA) formed as a consequence of the rifting that led to the formation of the Atlantic Ocean. The Triassic palynological assemblages found in the sedimentary rocks below (uppermost Blomidon Formation) and just above the North Mountain Basalt (Scots Bay Member of the McCoy Brook Formation) indicate that CAMP volcanism, at least in Nova Scotia, is entirely of Triassic age, occurred in a very short time span, and may have triggered the T–J boundary biotic and environmental crisis. The palynological assemblage from the Blomidon Formation is characterised by the dominance of the Circumpolles group (e.g. Gliscopollis meyeriana, Corollina murphyae, Classopollis torosus) which crosses the previously established Tr–J boundary.The Triassic species Patinasporites densus disappears several centimetres below the base of the North Mountain basalt, near the previously interpreted Tr–J boundary. The lower strata of the Scots Bay Member yielded a palynological assemblage dominated by Triassic bisaccate pollens (e.g Lunatisporites acutus, L. rhaeticus Lueckisporites sp., Alisporites parvus) with minor specimens of the Circumpolles group. Examination of the state of preservation and thermal alteration of organic matter associated with the microfloral assemblages precludes the possibility of recycling of the Triassic sporomorphs from the older strata. Our data argue against the previous definition of the Tr–J boundary in the ENA basins, which was based mainly on the last occurrence of P. densus. Consequently, it follows that the late Triassic magnetostratigraphic correlations should be revised considering that chron E23r, which is correlated with the last occurrence of P. densus in the Newark basin, does not occur at the Tr

Published
2009

45. Igneous rocks - a classification and glossary of terms

Author

Le Maitre, R.W., Le Bas, M.J., Bonin, B., Bateman, P., Bellieni, G., Dudek, A., Efremova, S., Keller, J., LaMeyre, J., Sabine, P.A., Schmid, R., Streckeisen, A., Sørensen, Henning, Woolley, A.R., Zanettin, B., Le Maitre, R.W., Le Bas, M.J., Bonin, B., Bateman, P., Bellieni, G., Dudek, A., Efremova, S., Keller, J., LaMeyre, J., Sabine, P.A., Schmid, R., Streckeisen, A., Sørensen, Henning, Woolley, A.R., and Zanettin, B.

Published
2002

50. Petrogenetic aspects of continental flood basalt-rhyolite suites from the Paranà basin (Brazil)

Author

Piccirillo E. M., Comin Chiaramonti P., Bellieni G., Civetta L., Marques L. S., Melfi A. J., Raposo M. I. B., Stolfa D., PETRINI, RICCARDO, PiccirilloE.M. and Melfi,A.J., Piccirillo, E. M., Comin Chiaramonti, P., Bellieni, G., Civetta, L., Marques, L. S., Melfi, A. J., Petrini, Riccardo, Raposo, M. I. B., and Stolfa, D.

Subjects
isotope-geochemistry, Paranà rhyolites, geochemistry, Paranà rhyolite
Published
1988

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